User guide
214
Regulator ICs BA3963
(4) Overcurrent protection circuit
An overcurrent protection circuit is installed in each out-
put system, based on the respective output current. This
prevents IC destruction by overcurrent, by limiting the
current with a curve shape of “7” in the voltage-current
graph. The IC is designed with margins so that current
flow will be restricted and latching will be prevented even
if a large current suddenly flows through a large capaci-
tor. Note that these protection circuits are only good for
preventing damage from sudden accidents. Make sure
your design does not cause the protection circuit to oper-
ate continuously under transitional conditions (for
instance, when output is clamped at 1V
F or higher, short
mode circuit operates at 1V
F or lower). Note that the cir-
cuit ability is negatively correlated with temperature.
(5) Thermal protection circuit
A built-in thermal protection circuit prevents thermal
damage to the IC. All outputs are switched OFF when the
circuit operates, and revert to the original state when
temperature drops to a certain level.
(6) Grounding
To minimize the variation of output voltage due to varia-
tions in load current, the GND (pin 12, for large current)
and the PRE GND (pin 11, for small current) pins are sep-
arately provided. Make sure to connect circuits to correct
pins.
FThermal derating curve
Estimate of allowable power dissipation (P
MAX.)
S Power consumed by OUT 5V P
1 = (VCC 5V) maximum output current of OUT 5V
S Power consumed by OUT 7V P
2 = (VCC 7V) maximum output current of OUT 7V
S Power consumed by the reset output P
3 = (VCC 4.95V) maximum output current of the reset output
S Power consumed internally by each circuit P
4 = VCC supply current
P
MAX. = P1 P2 P3 P4